CbCyp51-Mediated Demethylation Inhibitor Resistance Is Modulated by Codon Bias.

IF 2.6 2区 农林科学 Q2 PLANT SCIENCES Phytopathology Pub Date : 2024-10-01 Epub Date: 2024-10-07 DOI:10.1094/PHYTO-01-24-0034-R
Lorena I Rangel, Nathan Wyatt, Isaac Courneya, Mari B Natwick, Gary A Secor, Viviana Rivera-Varas, Melvin D Bolton
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Abstract

Cercospora leaf spot, caused by the fungus Cercospora beticola, is the most destructive foliar disease of sugarbeet worldwide. Resistance to the sterol demethylation inhibitor (DMI) fungicide tetraconazole has been previously correlated with synonymous and nonsynonymous mutations in CbCyp51. Here, we extend these analyses to the DMI fungicides prothioconazole, difenoconazole, and mefentrifluconazole in addition to tetraconazole to confirm whether the synonymous and nonsynonymous mutations at amino acid positions 144 and 170 are associated with resistance to these fungicides. Nearly half of the 593 isolates of C. beticola collected in the Red River Valley of North Dakota and Minnesota in 2021 were resistant to all four DMIs. Another 20% were resistant to tetraconazole and prothioconazole but sensitive to difenoconazole and mefentrifluconazole. A total of 13% of isolates were sensitive to all DMIs tested. We found five CbCyp51 haplotypes and associated them with phenotypes to the four DMIs. The most predominant haplotype (E170_A/L144F_C) correlated with resistance to all four DMIs with up to 97.6% accuracy. The second most common haplotype (E170_A/L144) consisted of isolates associated with resistance phenotypes to tetraconazole and prothioconazole while also exhibiting sensitive phenotypes to difenoconazole and mefentrifluconazole with up to 98.4% accuracy. Quantitative PCR did not identify differences in CbCyp51 expression between haplotypes. This study offers an understanding of the importance of codon usage in fungicide resistance and provides crop management acuity for fungicide application decision-making.

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CbCyp51 介导的 DMI 抗性受密码子偏差的调节。
由真菌 Cercospora beticola 引起的 Cercospora 叶斑病(CLS)是全世界最具破坏性的甜菜叶面病害。对甾醇脱甲基化抑制剂(DMI)杀菌剂四环唑的抗性与 CbCyp51 的同义和非同义突变有关。在此,我们将这些分析扩展到除四环唑之外的 DMI 杀菌剂丙硫菌唑、苯醚甲环唑和甲氟环唑,以确认氨基酸 144 和 170 位的同义和非同义突变是否与这些杀菌剂的抗药性有关。2021 年,在北达科他州和明尼苏达州红河谷收集到的 593 株贝氏菌分离株中,近一半对所有四种 DMI 均有抗药性。另有 20% 的分离物对四环唑和丙硫菌唑有抗性,但对二唑醇和甲霜灵敏感。共有 13% 的分离物对所有 DMIs 都敏感。我们发现了五种 CbCyp51 单倍型,并将它们与对四种 DMIs 的表型联系起来。最主要的单倍型(E170_A/ L144F_C)与对所有四种 DMIs 的抗性相关,准确率高达 97.6%。第二种最常见的单倍型(E170_A/L144)由对四环唑和丙硫菌唑具有耐药表型的分离物组成,同时也表现出对苯醚甲环唑和甲氟环唑的敏感表型,准确率高达 98.4%。定量 PCR 未发现单倍型之间 CbCyp51 表达的差异。这项研究使人们了解了密码子使用在杀菌剂抗性中的重要性,并为作物管理部门制定杀菌剂施用决策提供了敏锐性。
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来源期刊
Phytopathology
Phytopathology 生物-植物科学
CiteScore
5.90
自引率
9.40%
发文量
505
审稿时长
4-8 weeks
期刊介绍: Phytopathology publishes articles on fundamental research that advances understanding of the nature of plant diseases, the agents that cause them, their spread, the losses they cause, and measures that can be used to control them. Phytopathology considers manuscripts covering all aspects of plant diseases including bacteriology, host-parasite biochemistry and cell biology, biological control, disease control and pest management, description of new pathogen species description of new pathogen species, ecology and population biology, epidemiology, disease etiology, host genetics and resistance, mycology, nematology, plant stress and abiotic disorders, postharvest pathology and mycotoxins, and virology. Papers dealing mainly with taxonomy, such as descriptions of new plant pathogen taxa are acceptable if they include plant disease research results such as pathogenicity, host range, etc. Taxonomic papers that focus on classification, identification, and nomenclature below the subspecies level may also be submitted to Phytopathology.
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